This paper proposes a new approach for analysing daily activities in a laboratory. The case study presented is an analysis of shop-talk around a microscope. In addition to the classical approaches, such as ethnomethodology and anthropology of science, I argue that a microsemiotic approach could be useful to better understand what is at stake. The semiotic approach I shall use here was proposed by a group of Belgian semioticians: Groupe μ. This semiotic approach leads to a constructivist point of view: (...) the meaning of a visual representation is progressively constructed and is very context-dependent. This semiotic approach is fruitful because it allows a very precise analysis of shop-talk recorded data, and gives a better account of the materiality of visual representations. (shrink)

This paper explores a framework for thinking about risks inherent in emerging technologies; given uncertainty about the magnitude—or even nature—of those risks, deliberation about those technologies is challenged. §1 develops a conceptual framework for risk, and §2 integrates that conception into cost-benefit analysis. Given uncertainty, we are often pushed toward precautionary approaches, and such approaches are explored in §3. These first three sections are largely literature review, and then a positive argument for how to think about the relationship between risk, (...) precaution, and uncertainty is offered in §4. (shrink)

In this paper, I take a critical stance on the emerging field of nanoethics. After an introductory section, “Conceptual Foundations of Nanotechnology” considers the conceptual foundations of nanotechnology, arguing that nanoethics can only be as coherent as nanotechnology itself and then discussing concerns with this latter concept; the conceptual foundations of nanoethics are then explicitly addressed in “Conceptual Foundations of Nanoethics”. “Issues in Nanoethics” considers ethical issues that will be raised through nanotechnology and, in “What’s New?”, it is argued that (...) none of these issues is unique to nanotechnology. In “It’s a Revolution!”, I express skepticism about arguments which hold that, while the issues themselves might not be unique, they nevertheless are instantiated to such a degree that extant moral frameworks will be ill-equipped to handle them. In “What’s Different?”, I draw plausible distinctions between nanoethics and other applied ethics, arguing that these latter might well identify unique moral issues and, as such, distinguish themselves from nanoethics. Finally, in “What Now?”, I explore the conclusions of this result, ultimately arguing that, while nanoethics may fail to identify novel ethical concerns, it is at least the case that nanotechnology is deserving of ethical attention, if not a new associative applied ethic. (shrink)

In recent years, two distinct trajectories of bioethical inquiry have emerged: neuroethics and nanoethics. The former deals with issues in neuroscience, whereas the latter deals with issues in nanoscience and nanotechnology. In both cases, the ethical inquiries have coalesced in response to rapidly increasing scientific and engineering developments in each field. Both also present major issues for contemplation in bioethics. However, the questions are (1) how different are the ethical issues raised, and (2) is it beneficial for neuroethics and nanoethics (...) inquiries to proceed on often-divergent trajectories by ethicists who otherwise might never interact? If, for example, ethical inquiry occurs only within the disciplinary confines of their predominant area(s) of science (which now seems to be the case) or by overlooking prior discussions in other scientific realms (like genetics), then the opportunity for a richer, more comprehensive discourse may be lost. I argue that this (1) is a disservice to bioethics, (2) is antithetical to some of the aims of bioethical inquiry, and (3) encourages the reductionism bioethicists’ claim that is counterproductive. (shrink)

Nanotechnology has been facing multiple obstacles related to the applicability of patentability criteria. In this article, the authors addressed the novelty requirement in nanotechnology inventions in Iraqi and Malaysian patent acts. First, novelty was discussed to determine its applicability in the field of nanotechnology. Then, problems on nanotechnology patent application were presented along with some suggested solutions. The problems encountered in the patentability of nanotechnology inventions were summarized in two categories. First, the multidisciplinary nature of nanotechnology casts its shadow on (...) the examination process in patent offices. To overcome this problem, the United States Patent and Trademark Office and the European Patent Office created new divisions to examine nanotechnology inventions; thus, this step must be followed by developing countries. In addition, with the existence of larger scaled materials and devices in prior art, three potentials have been introduced to overcome this issue. First, novel properties in nanoinventions can be demonstrated to reach the point of novelty. Second, nanoinventions can be patentable if they are carried out despite scientific problems occurring when materials are shaped in nanoscale. Third, the process of creating nanomaterials can be patentable as the bottom-up approach, which is not used in larger scaled materials. Finally, pre-disclosure must be considered as an enabling disclosure, which enables a skilled man in the art to put the nanoinvention in practice. (shrink)

In this text, I respond to a paper by Erik Thorstensen entitled “Public Involvement and Narrative Fallacies of Nanotechnologies.” In his paper, Thorstensen critically reviews a previous ELSA project on engagement and nanotechnology known by the acronym DEEPEN. While I agree that the ELSA community could benefit from the critical examination of earlier research, I believe the approach taken by Thorstensen is not a constructive one. My response deals with three main issues: the character of the paper, narrative theory, and (...) interdisciplinarity. (shrink)

This paper reflects on the change of relations among participants in nanotechnology governance through their participation in governance processes such as stakeholder dialogues. I show that policymaking in practice—that is, the practice of coming and working together in such stakeholder dialogues—has the potential for two-fold performative effects: it can contribute to the development of trust and mutual responsibility on the part of the involved actors, and it may bring about effects on the formation of boundaries of what is sayable and (...) thinkable in nanotechnology governance. Three vignettes about the work of the German NanoKommission indicate the development of new relations of trust, recognition and mutual responsibility among actors. It is concluded that governance in practice can assemble new collectives in which relations of trust are the glue holding the complex structure together. While such a consensus-based progress may be favourable for smooth technology development, it can be considered problematic if evaluated against the ideals of deliberative democracy, which often form the premises on which public engagement is based. Stakeholder forums were set in place with the intention of including various actors, but this is Janus-faced: if a dialogue becomes encapsulated in new governance networks, new exclusions can arise. For example, a policing of which information is released to a wider audience can occur. (shrink)

Trust has become an important aspect of evaluating the relationship between lay public and technology implementation. Experiences have shown that a focus on trust provides a richer understanding of reasons for backlashes of technology in society than a mere focus of public understanding of risks and science communication. Therefore, trust is also widely used as a key concept for understanding and predicting trust or distrust in emerging technologies. But whereas trust broadens the scope for understanding established technologies with well-defined questions (...) and controversies, it easily fails to do so with emerging technologies, where there are no shared questions, a lack of public familiarity with the technology in question, and a restricted understanding amongst social researchers as to where distrust is likely to arise and how and under which form the technology will actually be implemented. Rather contrary, ‘trust’ might sometimes even direct social research into fixed structures that makes it even more difficult for social research to provide socially robust knowledge. This article therefore suggests that if trust is to maintain its important role in evaluating emerging technologies, the approach has to be widened and initially focus not on people’s motivations for trust, but rather the object of trust it self, as to predicting how and where distrust might appear, how the object is established as an object of trust, and how it is established in relation with the public. (shrink)

Nanotechnology has been established as a priority research and policy focus, cutting across several R&D fields from pharmaceutics, food and electronics. The raise of nanotechnologies has been accompanied by an enduring uncertainty characterising the developments of the scientific knowledge related to this field, as well as the social trajectories of technological applications. Such a condition inevitably affects regulatory responses to such technologies, their development and their uses. This special issue addresses this junction between uncertainty and regulation. With no ambition of (...) providing a comprehensive assessment of such a complex issue, this collection of articles examines three relevant dimensions for understanding uncertainty in nanotechnology regulation, which can be useful entry points for further reflection and discussion: scientific uncertainty, regulatory fragmentation, social actors’ opinions about and attitudes to nanotechnology and regulation. (shrink)

This editorial introduces a collection of articles that is a collaborative effort to discuss the impact of nanotechnology-based innovation on biomedical products development, on public health infrastructure, and on healthcare service delivery. The goal of this special issue of Studies in Ethics, Law, and Technology is to assess the effects of these transformations on the equity of access to healthcare, on the potential and actual disparities, especially at the international level, as well as to examine the possible strategies to make (...) nanotechnology help attain the highest standard of health for all. (shrink)

As rapid advances in nanotechnology are made, we must set guidelines to balance the interests of both human beneficiaries and the environment by combining nanoethics and environmental ethics. In this paper, I reject Leopoldian holism as a practical environmental ethic with which to gauge nanotechnologies because, as a nonanthropocentric ethic, it does not value the humans who will actually use the ethic. Weak anthropocentrism is suggested as a reasonable alternative to ethics without a substantial human interest, as it treats nonhuman (...) interests as human interests. I also establish the precautionary principle as a useful situational guideline for decisionmakers. Finally, I examine existing and potential applications of nanotechnology, including water purification, agriculture, mining, energy, and pollutant removal, from the perspective of weak anthropocentrism using the precautionary principle. (shrink)

In this paper I focus on the question of whether nanotechnology is giving rise to new ethical problems rather than merely to new instances of old ethical problems. Firstly, I demonstrate how important it is to make a general distinction between new ethical problems and new instances of old problems. Secondly, I propose one possible way of interpreting the distinction and offer a definition of a “new ethical problem”. Thirdly, I examine whether there is good reason to claim that nanotechnology (...) is giving or will give rise to new ethical problems. My conclusion is that there are no new ethical problems in nanotechnology but merely new occurrences of certain well-known types of ethical problems. Fourthly, I consider three arguments by van de Poel (NanoEthics 2:25–28, 2008) which contradict my conclusion. I argue that my negative conclusion is consistent with the claim that certain ethical issues arising in nanotechnology may require new normative standards or new analytical tools. I conclude that it is likely that a number of ethical issues arising in nanotechnology will have a considerable impact on our ethical theories and values – and that ethical reflection on nanotechnology will be one of the mother lodes of future ethical research – in spite of the fact that no ethical problem in nanoethics will actually be “new”. (shrink)

The unique properties of nanotechnology have made nanotechnology education and its related subjects increasingly important not only for students but for mankind at large. This particular technology brings educators to work together to prepare and produce competent engineers and scientists for this field. One of the key challenges in nanotechnology engineering is to produce graduate students who are not only competent in technical knowledge but possess the necessary attitude and awareness toward the social and ethical issues related to nanotechnology. In (...) this paper, a research model has been developed to assess Malaysian nanotechnology engineering students’ attitudes and whether their perspectives have attained the necesary objectives of ethical education throughout their programme of study. The findings from this investigation show that socio ethical education has a strong influence on the students’ knowledge, skills and attitudes pertaining to socio ethical issues related to nanotechnology. (shrink)

Van den Belt recently examined the notion that synthetic biology and the creation of ‘artificial’ organisms are examples of scientists ‘playing God’. Here I respond to some of the issues he raises, including some of his comments on my previous discussions of the value of the term ‘life’ as a scientific concept.

Nanotechnology and nanosciences have recently gained tremendous attention and funding, from multiple entities and directions. In the last 10 years the funding for nanotechnology research has increased by orders of magnitude. An important part that has also gained parallel attention is the societal and ethical impact of nanotechnology and the possible consequences of its products and processes on human life and welfare. Multiple thinkers and philosophers wrote about both negative and positive effects of nanotechnology on humans and societies. The literature (...) has a considerable amount of views about nanotechnology that range from calling for the abandonment and blockage of all efforts in that direction to complete support and encouragement in hopes that nanotechnology will be the next big jump in ameliorating human life and welfare. However, amidst all this hype about the ethics of nanotechnology, relatively less efforts and resources can be found in the literature to help engineering professionals and educators, and to provide practical methods and techniques for teaching ethics of nanotechnology and relating the technical side of it to the societal and human aspect. The purpose of this paper is to introduce strategies and ideas for teaching ethics of nanotechnology in engineering in relation to engineering codes of ethics. The paper is neither a new philosophical view about ethics of nanotechnology nor a discussion of the ethical dimensions of nanotechnology. This is an attempt to help educators and professionals by answering the question of how to incorporate ethics of nanotechnology in the educational process and practice of engineering and what is critical for the students and professionals to know in that regard. The contents of the presented strategies and ideas focus on the practical aspects of ethical issues related to nanotechnology and its societal impact. It also builds a relation between these issues and engineering codes of ethics. The pedagogical components of the strategies are based on best-practices to produce independent life-long self-learners and critical thinkers. These strategies and ideas can be incorporated as a whole or in part, in the engineering curriculum, to raise awareness of the ethical issues related to nanotechnology, improve the level of professionalism among engineering graduates, and apply ABET criteria. It can also be used in the way of professional development and continuing education courses to benefit professional engineers. Educators and institutions are welcome to use these strategies, a modified version, or even a further developed version of it, that suits their needs and circumstances. (shrink)

The emergence and development of convergent technologies for the purpose of improving human performance, including nanotechnology, biotechnology, information sciences, and cognitive science (NBICs), open up new horizons in the debates and moral arguments that must be engaged by philosophers who hope to take seriously the question of the ethical and social acceptability of these technologies. This article advances an analysis of the factors that contribute to confusion and discord on the topic, in order to help in understanding why arguments that (...) form a part of the debate between transhumanism and humanism result in a philosophical and ethical impasse: 1. The lack of clarity that emerges from the fact that any given argument deployed (arguments based on nature and human nature, dignity, the good life) can serve as the basis for both the positive and the negative evaluation of NBICs. 2. The impossibility of providing these arguments with foundations that will enable others to deem them acceptable. 3. The difficulty of applying these same arguments to a specific situation. 4. The ineffectiveness of moral argument in a democratic society. The present effort at communication about the difficulties of the argumentation process is intended as a necessary first step towards developing an interdisciplinary response to those difficulties. (shrink)

"Public engagement in science" is one of the buzzwords that, since 2000, has been used in nanotechnology programs. To what extent does public engagement disrupt the traditional relations between science and the public? This paper briefly contrasts the traditional model of science communication - the diffusionist model - that prevailed in the twentieth century and the new model - the participatory model - that tends to prevail nowadays. Then it will try to disentangle the assumptions underlying the public dialogue initiated (...) about nanotechnology, and conclude that nanotechnology actually develops a managerial model of society. (shrink)

Over the past decades, self-assembly has attracted a lot of research attention and transformed the relations between chemistry, materials science and biology. The paper explores the impact of the current interest in self-assembly techniques on the traditional debate over the nature of life. The first section describes three different research programs of self-assembly in nanotechnology in order to characterize their metaphysical implications: (1) Hybridization (using the building blocks of living systems for making devices and machines) ; (2) Biomimetics (making artifacts (...) mimicking nature); (3) Integration (a composite of the two previous strategies). The second section focused on the elusive boundary between self-assembly and self-organization tries to map out the various positions adopted by the promoters of self-assembly on the issue of vitalism. (shrink)

Nanotechnology is an important platform technology which will add new features like improved biocompatibility, smaller size, and more sophisticated electronics to neuro-implants improving their therapeutic potential. Especially in view of possible advantages for patients, research and development of nanotechnologically improved neuro implants is a moral obligation. However, the development of brain implants by itself touches many ethical, social and legal issues, which also apply in a specific way to devices enabled or improved by nanotechnology. For researchers developing nanotechnology such issues (...) are rather distant from their daily work in the lab, but as soon as they use their materials or devices in medical applications such as therapy of brain diseases they have to be aware of and deal with them. This paper is intended to raise sensitivity for the ethical, legal and social aspects (ELSA) involved in applying nanotechnology in brain implants or other devices by highlighting the short term problems of testing and clinical trials within the existing regulatory frameworks (A), the short and medium-term questions of risks in the application of the devices (B) and the long-term perspectives related to problems of enhancement (C). To identify and address such issues properly nanotechnologists should involve ethical, legal and social experts and regulatory bodies in their research as early as possible. This will help to remove pressure from regulatory bodies, to settle public concern and to prevent non-acceptable developments for the benefit of the patients. (shrink)

No one really knows where nanotechnology is leading, what its pursuit will mean, and how it may affect human and other forms of life. Nevertheless, its research and development are moving briskly into that unknown. It has been suggested that rapid movement towards 'who knows where' is endemic to all technological development; that its researchers pursue it for curiosity and enjoyment, without knowing the consequences, believing that their efforts will be beneficial. Further, that the enthusiasm for development comes with no (...) malicious intent but rather from simple ignorance. Contrary to that commonly held perception about the collective pursuit of technological development, there are individual research scientists and engineers who are quite willing to reflect on the meaning of their work in nanotechnology. Nanotalk is a book of conversations and explorations with thirty five such nano-research scientists and engineers who share their ideas, experiences, perceptions, and beliefs about their work, humanity, nature, change, and the future of the world with nanotechnology. Precisely because of the unknowable nature of nanotechnology research and development, conscientious foresight and ethical reflection are warranted every step of the way. Not only do nanotechnology research and development represent enormous financial commitments, but they also require a profound leap of faith regarding its possible outcomes. Using these conversations as the basis of reflection and deliberation, the author explores the possible significance of nanotechnology to humanity and how it might be pursued conscientiously and ethically. (shrink)

Nanotechnology, the emerging capability of human beings to observe and organize matter at the atomic level, has captured the attention of the federal government, science and engineering communities, and the general public. Some proponents are referring to nanotechnology as “the next technological revolution”. Applications projected for this new evolution in technology span a broad range from the design and fabrication of new membranes, to improved fuel cells, to sophisticated medical prosthesis techniques, to tiny intelligent machines whose impact on humankind is (...) unknowable. As with the appropriation of technological innovation generally, nanotechnology is likely to eventually bring dramatic and unpredictable new capabilities to human material existence, along with resulting ethical challenges and social changes to be reconciled. But as of yet, aside from a few simple new consumer goods, such as paint, rackets and fabric coatings, nanotechnology is undeveloped. Its social and ethical dimensions are not apparent. Even still, given the stated goals of the various nanotechnology initiatives to rearrange matter with increasing atomic precision, the impact of nanotechnology on human life and society is likely be profound. It is very difficult, however, to make accurate predictions about the future impact of nanotechnology development on humanity. At this time, the most important role for ethics analysis is to contribute to a humanitarian, conscientious approach to its development. This paper suggests that such an approach requires that attention be given to the roles of imagination, meaning-making, metaphor, myth and belief. (shrink)

This paper describes the French initiative in materials research against both a national and an international background, in an attempt to disentangle the local circumstances, which prompted this governmental initiative, and to characterize the specific profile of materials research in France. In presenting a biography of the interdisciplinary program in materials research (PIRMAT), we argue that: i) the PIRMAT denotes a failure of the French science policy in materials research; ii) the leadership of the CNRS led to a specific style (...) of research, quite different from the engineering approach of Materials Science and Engineering, and characteristic of a French style in materials research. (shrink)

Here we consider two ways that nanomedicine might be disruptive. First, low-end disruptions that are intrinsically unpredictable but limited in scope, and second, high end disruptions that involve broader societal issues but can be anticipated, allowing opportunity for ethical reflection.

The molecule, as a perfect and ageless building block of matter that exists beyond human reach, has been an object of fascination and admiration since the 19th century. However, the discourse surrounding nanotechnology – at least at its most optimistic – promises the possibility of human mastery over this domain and, as a result, over all matter. This belief carries forward the old idea of a division between a realm of the base, material and particular, on one hand, and a (...) realm of the perfect, immaterial and abstract, on the other, one which today is most powerfully expressed in information discourse. Within this framework, nanotechnology promises the ability to negotiate and even dissolve this division, allowing matter itself to be treated as a kind of information. The most enthusiastic adherents of this idea believe that this will one day allow us to ‘reprogram’ material reality itself. (shrink)

The convergence of biomedical sciences with nanotechnology as well as ICT has created a new wave of biomedical technologies, resulting in visions of a ‘molecular medicine’. Since novel technologies tend to shift concepts of disease and health, this paper investigates how the emerging field of molecular medicine may shift the meaning of ‘disease’ as well as the boundary between health and disease. It gives a brief overview of the development towards and the often very speculative visions of molecular medicine. Subsequently (...) three views of disease often used in the philosophy of medicine are briefly discussed: the ontological or neo-ontological, the physiological and the normative/holistic concepts of disease. Against this background two tendencies in the field of molecular medicine are highlighted: (1) the use of a cascade model of disease and (2) the notion of disease as a deviation from an individual pattern of functioning. It becomes clear that molecular medicine pulls conceptualizations of disease and health in several, partly opposed directions. However, the resulting tensions may also offer opportunities to steer the future of medicine in more desirable directions. (shrink)

Nanotechnologies produce many different types of images but are characterized by the ones that allow us to ‘see the atoms’ despite the fact that objects at the nanoscale are smaller than the wavelength of light and hence are ‘invisible’. Images from scanning probe microscopy (SPM), like ‘The Beginning’, have played an emblematic role in the constitution of the field and are also more likely to be used in communication outside the scientific field. These images are made, selected, modified and evaluated (...) with respect to the information that they communicate. The ‘life cycle’ of these images implies the transduction of this information. Outside of the scientific field, however, they are no longer defined by this information, nor according to technical and scientific criteria, but by their aesthetic power, and they become associated with other images from other fields (art, advertisement, entertainment). This process creates a psycho-social ‘halo’ about ‘nano’ in the public perception, and raises ethical issues about nanotechnological communication via images. We will analyze the halo of the nano in this respect and propose a strategy for a reflexive ‘accommodation’ to the images at the nanoscale. (shrink)

This essay explores some of the social, political, economic and technological issues that the world may have to face in the mid-21 st century. A central theme is the need to regulate molecular nanotechnology because of its immense abuse potential. Advanced nanotechnology can be used to build small self-replicating machines that can feed on organic matter - a bit like bacteria but much more versatile, and potentially more destructive than the H-bomb. The necessity to prevent irresponsible groups and individuals from (...) getting access to nanotechnological manufacturing capability is a prime concern in 2050. The essay shows how this quest for containment shapes many aspect of society, most notably via the institution of a global surveillance network. A dialogue format is used for two reasons. First, in order to enable several conflicting views to be discussed. And second, to illustrate how public debates may be conducted at that time. (shrink)

There is little doubt that the development and commercialisation of nanotechnologies is challenging traditional state-based regulatory regimes. Yet governments currently appear to be taking a non-interventionist approach to directly regulating this emerging technology. This paper argues that a large regulatory toolbox is available for governing this small technology and that as nanotechnologies evolve, many regulatory advances are likely to occur outside of government. It notes the scientific uncertainties facing us as we contemplate nanotechnology regulatory matters and then examines the notion (...) of regulation itself, suggesting new ways to frame our understanding of both regulation and the regulatory tools relevant to nanotechnologies. By drawing upon three different conceptual lenses of regulation, the paper articulates a wide range of potential regulatory tools at hand. It also focuses particularly on the ways various tools are currently being used or perhaps may be employed in the future. The strengths and weaknesses characterising these tools is examined as well as the different actors involved. The paper concludes that we will increasingly face debate over what is likely to work most effectively in regulating nano technologies, the legitimacy of these different potential approaches, and the speed at which these different regimes may be employed. (shrink)

“In this article we sketch out the landscape for this Special Issue on anticipating and embedding the societal challenge of nanotechnologies. Tools that actors may choose to employ for these processes are articulated, and further explored through the introduction of the seven articles which comprise this Issue. Taken together, these articles create a cogent narrative on the societal challenges posed by nanotechnologies. They are drawn together by three distinct themes, each of which is briefly considered within this context of this (...) Introductory article”. (shrink)

Consumer demand for new products within the cosmetics and toiletries industry has encouraged the industry increasingly to incorporate and experiment with new products and processes, including nanotechnologies. A number of cosmetic products which claim to incorporate engineered nano-materials have already entered the market and include, for instance, anti-ageing creams, make up, hair care products, cleansers and moisturisers. While the use of engineered nano-materials within cosmetics offers a range of benefits, including increased transparency and solubility, there has been increasing debate over (...) the potential risks associated with a number of the nano-materials already found in these products. While such concerns are not unique to the cosmetics sector, due to the direct application of these products onto the human skin, concern has been expressed over the potential health effects of nanotechnology-based cosmetics. This is despite the fact that cosmetic products are subject to regulatory controls within every jurisdiction in which they are sold. With debate over the safety of cosmetics containing nano-materials likely to escalate in line with the number of products entering the marketplace, this article examines the adequacy of the current regulatory framework for cosmetics containing nanoscale materials within one of the world’s largest cosmetic's market, the European Union. Two case studies are presented, and the effectiveness of the Cosmetics Directive is examined by reference to these two products. By drawing on this analysis, the article articulates the strengths and weaknesses of the current regulatory regime, and discusses how these may be addressed under the proposed new regulatory framework. (shrink)